Population genetics comparison of Lilioceris cheni (Coleoptera: Chrysomelidae) colonies released onto Dioscorea bulbifera in Southeastern U.S.A.

IF 1.5 4区 农林科学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biocontrol Science and Technology Pub Date : 2023-04-17 DOI:10.1080/09583157.2023.2196016
P. Madeira, R. Diaz, F. Dray, M. Rayamajhi, E. Lake, M. C. Smith
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Abstract

ABSTRACT Multiple importations of Lilioceris cheni, a defoliating beetle of the invasive air potato plant, were received by the ARS-Invasive Plant Research Laboratory from 2002 to 2012. The last two, in 2011 (China) and 2012 (Nepal), formed the basis of two colonies from which releases were made into six Southeastern U.S. States. Colony populations were examined using the mitochondrial COI sequence. Phylogenetics, evolutionary divergence, a haplotype network, population statistics, and migration models were generated for the two colonies, countries of origin, and the inferred populations (clades). Phylogenetics eliminated the possibility of cryptic speciation and alleviated the need for host-range testing of the 2012 Nepalese samples. Evolutionary divergence showed the Chinese colony was 1.65X as divergent as the Nepalese, but one Nepalese clade was the most distinctly different of all clades. AMOVA showed most (>70%) genetic variation resided within rather than between colonies. In contrast, AMOVAs showed high levels (>61.5%) of genetic variation between underlying clades with proportionally less variation within. The haplotype network showed broad agreement with the phylogeny. Clade C, from China, displayed the largest number of haplotypes and the largest mutation-scaled effective population size in MIGRATE software. The best MIGRATE models indicated that migration and descent followed the order of phylogenetic descent. The results suggest that the genetic diversity being offered to the adventive range by these very divergent colonies (and clades) is large and should support great ecological flexibility.
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美国东南部黄花薯蓣放生chenilioceris(鞘翅目:金鸡科)的群体遗传学比较
摘要/ ABSTRACT摘要:2002 - 2012年,美国农业部入侵植物研究实验室接收了多株空气马铃薯入侵植物的脱叶甲虫——cheni Lilioceris。最后两次是在2011年(中国)和2012年(尼泊尔),形成了两个殖民地的基础,并将其释放到美国东南部的六个州。使用线粒体COI序列检测菌落群体。系统发育、进化分化、单倍型网络、种群统计和迁移模型生成了两个殖民地、原产国和推断的种群(枝)。系统发育学消除了隐种形成的可能性,减轻了对2012年尼泊尔样本进行宿主范围测试的需要。进化差异表明,中国种群的差异是尼泊尔种群的1.65倍,但尼泊尔的一个分支是所有分支中差异最明显的。AMOVA显示大部分(>70%)的遗传变异存在于菌落内部而不是菌落之间。相比之下,AMOVAs显示出高水平的遗传变异(>61.5%),下伏支系之间的遗传变异比例较小。单倍型网络显示了与系统发育的广泛一致。来自中国的进化支C在MIGRATE软件中显示出最多的单倍型和最大的突变尺度有效群体大小。最佳迁移模型表明,迁移和下降遵循系统发育下降的顺序。结果表明,这些非常不同的群体(和分支)提供给外来范围的遗传多样性是巨大的,应该支持巨大的生态灵活性。
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来源期刊
CiteScore
3.20
自引率
7.10%
发文量
64
审稿时长
4-8 weeks
期刊介绍: Biocontrol Science and Technology presents original research and reviews in the fields of biological pest, disease and weed control. The journal covers the following areas: Animal pest control by natural enemies Biocontrol of plant diseases Weed biocontrol ''Classical'' biocontrol Augmentative releases of natural enemies Quality control of beneficial organisms Microbial pesticides Properties of biocontrol agents, modes of actions and methods of application Physiology and behaviour of biocontrol agents and their interaction with hosts Pest and natural enemy dynamics, and simulation modelling Genetic improvement of natural enemies including genetic manipulation Natural enemy production, formulation, distribution and release methods Environmental impact studies Releases of selected and/or genetically manipulated organisms Safety testing The role of biocontrol methods in integrated crop protection Conservation and enhancement of natural enemy populations Effects of pesticides on biocontrol organisms Biocontrol legislation and policy, registration and commercialization.
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